JP5198766B2 - Recording method of metronome and beat interval corresponding to tempo change - Google Patents

Description

【Technical field】
[0001]
The present invention provides a metronome with a display capable of engraving beats corresponding to music including tempo changes and allowing the user to accurately predict beat positions. And recording method of beat interval About.
[Background]
[0002]
The conventional metronome ticks the beat exactly until it stops at the initial tempo and even the time signature. There was nothing that changed the tempo.
[0003]
A tempo setting is disclosed in which a user indicates a beat interval in real time. In Japanese Patent Laid-Open No. 2003-195858, the tempo is set from the hitting interval by playing with an electronic percussion instrument. This designates the tempo in real time, but only designates the tempo immediately after it, but does not designate the change in tempo.
[0004]
On the other hand, in Japanese Patent Application Laid-Open No. H7-171360, in an instrument capable of automatic performance, performance data is recorded with the time signature and tempo of the music attached, and the value is read out at the beginning of reproduction and used for display and pronunciation. I have to. Although this can be said to be a song, it still does not correspond to a change in tempo along the way.
[0005]
The first means to present a beat to a person was that the pendulum mechanically reciprocated and pronounced. Recently, various electronic metronomes have been devised, and as a display, a display device such as Japanese Patent Laid-Open No. H8-201541 is used, and a light-emitting element such as Japanese Patent Laid-Open No. 2000-88977 There is one that emits light in sequence. These electronic metronomes are intended to simulate the pendulum of a mechanical metronome, and in the horizontal direction, depending on the thing, an arc-shaped reciprocating motion is displayed, and when reaching both ends, the timing of the beat There is. The movement is aimed at a constant speed or a display that is slow at both ends in Japanese Patent Laid-Open No. 2000-89777. In other words, it tries to faithfully correspond to the movement of a mechanical metronome.
[Problems to be solved by the invention]
[0006]
In actual music, the tempo changes in the middle or the tempo changes in part. In practicing such a song, the traditional fixed-tempo metronome is useless. The first object of the present invention is to realize a metronome that can reflect changes in tempo as the music progresses. This includes not only gradual changes such as ritardando and aceleland, but also fine tempo fluctuations in beats not shown in the score.
[0007]
In order to smoothly achieve the first object, a means for creating beat timing data at a tempo that changes greatly or slightly according to the music is required. Furthermore, it is desirable that partial correction can be easily performed on the data. A second object of the present invention is to provide means for creating and correcting beat timing data.
[0008]
In order to perform in time with beats that are not necessarily equally spaced, a display method that can accurately predict beat timing is required. To that end, as shown in Hideo Saito's “Study on Conducting Law” music friendship, which describes the conducting method, in the movement of the point to be noted, the reaching point is clear and accelerated to that point. It is suitable to slow down and return from that point. That is, it is said that the exercise of bouncing the ball is good. The third object of the present invention is to realize a display that can accurately determine the timing of a beat and the number of beats even when there is no sound. In other words, it tries to realize a virtual conductor with a device.
[0009]
The fourth object of the present invention is to take measures to make the metronome easier to use. Because of the new functions, it is necessary to create operations that were not traditional metronome.
[0010]
The fifth object of the present invention relates to a medium that uses this metronome to record a performance that only a solo player called "Music Minus One" has been recorded. As a music minus one, there are many publications of recordings of concertos that have skipped solo instruments. Calling is different, but karaoke is the same performance as a soloist. However, in the performance without a solo instrument, for example, the tempo tends to be constant, and there is a problem that the soloist does not fit when playing with a subtle tempo change. In addition, there was a problem that the timing was shifted when the next orchestra came out when there was only a solo instrument for a while. For this reason, some solos use a metronome sound to cut the tempo, but there are still problems such as a constant tempo and extra sounds. A fifth object of the present invention is to provide means for solving the above-mentioned problems in music minus one, improving the quality of performance, and facilitating performance using this metronome.
DISCLOSURE OF THE INVENTION
[0011]
In order to achieve the first object, in the present invention, the interval data of all adjacent beats of the music or its part and further the data of the time signature are recorded in the memory, and the data are sequentially read out to be followed. It was decided to keep the beat by measuring the time until the beat. Of course, as long as equivalent data can be extracted, it may be stored in another compressed format, for example. In addition to using the internal memory as the memory, a digital recording medium such as a small, large-capacity memory stick or a memory card that can be taken out, such as those used in digital cameras, may be used, or via a cable or a network. Data may be downloaded to an internal memory.
[0012]
In principle, beats are engraved using one-dimensionally arranged beat interval data. However, in order to express strong beats and weak beats, and to correspond to musical scores, an expression close to a digital score expression is desirable. That is, when each beat is engraved, the bar number and the number of beats within the bar are known. When dividing a beat at a slow tempo, an expression such as 2 + 2/3 is also required as an auxiliary beat. Alternatively, MBT (Measure / Beat / Tick: measure number / beat number / clock number) used in electronic musical instruments and computer music may be used.
[0013]
In order to achieve the second object, a person's tapping is an easy method for anyone to operate, and this is also used as the main input method in the present invention. A dedicated device has a button for that purpose as an input device. You can also use a computer mouse, or you can use a foot pedal or a special device for input while playing. There are two types of input: an initial input mode in which a blank page is input and a correction mode in which partial correction is performed during reproduction. In the initial input mode, the beat interval data is written to the cleared memory, whereas in the correction mode, the correction data is written back to the data used for reproduction.
[0014]
Tapping all long tunes is a tired work, and it is another input method of the present invention to perform initial correction using a numerical value or speed notation using a computer and make corrections interactively. According to this computer program, parts having a constant tempo can be input together, and data can be created by calculating a smooth change of a long section of ritardando, aceleland, and the like. If necessary, partial modifications can be made numerically afterwards. In addition, it is possible to specify a correction portion and reproduce it, and to make corrections by tapping input.
[0015]
In order to achieve the third object, the first solving means of the present invention uses a light emitting element array installed in the vertical direction to change the amplitude for each beat according to the time signature and move the light emitting point with a change in speed. That is. That is, the amplitude before the strong beat is large and the amplitude before the weak beat is small. Moreover, the medium strong beat like the 4th beat of 6/8 time is set to the intermediate amplitude. The basic movement pattern is a parabola when expressed in a graph of the time axis and the vertical axis. Then, as described in the above-mentioned “command course”, the acceleration to the hitting point becomes the maximum speed, reverses, decelerates and returns, thereby improving the accuracy of the hitting point prediction. In addition to the light emitting element array, various display devices can naturally be used. The second solution of the present invention is to display the movement of a point corresponding to the tip of the baton on the two-dimensional display. In this case, the points are moved in different two-dimensional patterns depending on the time signature. In any means, the position of the beat or the expected arrival position, which is said to be a hit point in the command method, is always indicated. In the light emitting element array, an element that always emits light is placed at the same height as the bottom position, and in the display, a horizontal line is drawn at the height of the hitting point. In addition, by making the emission intensity at the hitting point particularly strong, the timing of the hitting point can be confirmed more clearly. During practice, the line of sight is toward the score, so the metronome is often part of the field of view, and this display helps.
[0016]
The fourth object is realized by having an operation means similar to the operation of the tape recorder and its processing program. The initial input corresponds to recording and the playback corresponds to playback, but unlike the tape recorder, playback has a read-only mode that prohibits writing and correction input to protect the recorded contents. An overwrite mode in which rewriting is partially performed and a copy mode in which correction input is reflected in write data during reproduction while copying is provided. The prohibition of writing may be set on a recording medium itself that can be separately taken out, or a read-only device may be used as a memory device. In any case, the operation target is a set of digital data, which is handled as a file by the computer. Arranged as operation inputs are designation of a read file, designation of a write file (including no writing), initial input start, playback start, pause, stop and return to the start point, fast feed, and the like. It also provides on / off sound generation and volume adjustment.
[0017]
Furthermore, for the fourth purpose, a reproduction point designation means is necessary. For example, it is necessary when the entire piece of music in the memory is contained and only that part is repeatedly used for practice. For this, an input means is prepared in which the correspondence with the bar number is included in the data, and the bar number and beat number of the start position and stop position can be designated. During recording and playback, the current measure number and beat number are displayed.
[0018]
What is further needed for the fourth purpose is the pre-start swing. Skilled performers feel the timing of the first beat and the subsequent tempo by swinging one beat of the conductor. In this case, it is not said to be idle. Even in the present invention, since the same display is performed, it is possible to adjust the display from the previous beat. However, it is necessary for a beginner to enter a performance after grasping the tempo by, for example, one measure or an empty swing of at least 2 to 4 beats. Therefore, in the present invention, it is possible to input and specify an empty beat or the number of measures. This remains in the device as a user setting.
[0019]
The fifth object is music minus one, which is one of the preferred applications of the present invention. In the present invention, recording and reproduction are performed in the following steps. First, the performer who performs the model performance joins the ensemble at the best tempo and records it, and at the same time or later, the metronome of the present invention is used to accurately copy the tempo, and this is then used for the present invention. Play and record without a soloist while playing in the metronome. At this time, the metronome is turned on with only the display, and the performance is performed accordingly. After recording, adjust the metronome to this recording again if necessary. The music minus one recording is supplied to the end user in combination with the metronome data. The end user sets the metronome data in the metronome and starts it, and starts playback of the recording media in synchronization. Assuming that both operation and performance are performed alone, leave about 5 seconds from the start operation to the first beat. Turning the metronome on / off is the end user's occasional choice. As additional information to the metronome data, it is possible to set a flag during a period when there is no movement other than the solo instrument, and control to sound only during this period.
【Effect of the invention】
[0020]
According to the present invention, it is possible to practice a song with a change in tempo, which was impossible in the past. Since the data can be carried on a recording medium, the student can take home the data recorded with subtle tempo fluctuations that are not written on the score and use it for practice. Alternatively, it is possible to collect an example performance tempo from a CD and use it for practice.
[0021]
In order to create the metronome data of the present invention, it is not necessary to perform a large number of keystrokes, and data can be created with more intuitive and efficient tapping, making it easy for a wide range of users. You can use it. On the other hand, in order to input long songs efficiently, it is also possible to quickly create primary data using a personal computer.
[0022]
In the display digitized by the first solving means of the present invention, the movement in the vertical direction is imitated by the movement of the baton, so it is possible to accurately match even if the tempo fluctuates. The accuracy is further increased when a two-dimensional display is used in the second solution of the present invention.
[0023]
Using the silent mode to perform according to the display can be expected to have an unprecedented effect as a preparatory practice for the orchestra conductor.
[Brief description of the drawings]
[0024]
FIG. 1 is a diagram showing the appearance and parts of the apparatus of Example 1,
FIG. 2 is a diagram showing a state of movement of a point to emit light,
FIG. 3 is a diagram showing how to triple beat in Example 2,
FIG. 4 is a diagram showing a flow of an important part of the computer program according to the first embodiment.
BEST MODE FOR CARRYING OUT THE INVENTION
[0025]
There are two forms of implementation of the invention. The first form is a dedicated device using a light emitting element array. Although it has a built-in microprocessor, it can be used as easily as a video deck, reducing costs. It is equipped with a standard interface used in personal computers such as USB, so that it can be connected to a mouse or a foot switch that matches the specifications of the mouse. A slot for a storage medium such as a memory card is also prepared for storing and carrying data.
[0026]
The second embodiment of the present invention is realized as application software of a personal computer. If you can expect to equip the display, mouse, and audio output as standard, you can use it. In other words, what reads and writes a storage medium for the data exchange with the dedicated device of the present invention may be added as an option. Considering the place for practicing musical instruments, tablet computers and palm computers are all-in-one and convenient.
[0027]
Example 1
This embodiment is an example in which the present invention is realized by a dedicated device, and an example of its appearance is shown in FIG. In the figure, 1 is a metronome of the present invention, 2 is a storage medium that stores beat intervals and time signatures, and is detachable from a slot 3 for that purpose. Reference numeral 4 denotes a light-emitting element array in which light-emitting elements are arranged in a line. The light-emitting elements are moved in order to resemble the movement of a conductor. The lower end is the beat position. There is a speaker on the back of 5, which produces a sound for each beat. A flat display device 6 such as a liquid crystal displays a bar number, a beat number, a tempo, and the like during operation, and displays for that when setting various menus.
[0028]
Reference numeral 7 denotes an operation panel, which is shown as an example and can be modified. 8 is a power switch for the apparatus, 9 is an on / off switch for the speaker, and 10 is an on / off switch for prohibiting writing to the memory, all of which are of the latching type that are turned on at the push-in position and off at the raised position. 11 is a menu selection start button, 12 is a selection button, and 13 is a return button, both of which are momentary types that return immediately. A rotary switch 14 is used to raise and lower the pointer in the menu list. 15 is a start / pause button, 16 is a beat timing input button, 17 is a forced input instruction button, and 18 is a stop / rewind button. Both are momentary types that return when released and are robust enough to withstand heavy use. Of the type. In particular, the operation panel is not vertical but has a horizontal angle so that the buttons 15 to 18 are easily operated.
[0029]
Reference numeral 19 denotes, for example, a USB connector, which is connected to a mouse or a foot switch that combines a mouse and an interface, and is used as an alternative input from a position slightly away from the timing inputs 16 and 17 and the forced input button. Although not shown in the figure, connection to a network such as a connector for connecting to another LAN or an antenna for a wireless LAN is also optional.
[0030]
Inside this device are a battery as a power source, a microprocessor, and a program ROM.
, RAM, an interface of a removable storage medium, a USB interface, an interface for network connection such as a LAN. An audio circuit, display circuit, and operation panel input interface are also provided. A special thing different from a personal computer is a drive circuit for a light emitting element. It has a register having a bit corresponding to each element, and is turned on / off by its output. Of course, this register can be written from the microprocessor.
[0031]
There are many options for using this device, but the selection is performed by a hierarchical menu selection operation. By pushing the 11 menu button, the menu of the first layer is displayed on the display 6 in one line per line. By rotating the 14 rotary switch, the pointer moves up and down line by line and according to the desired selection, the selection is made by pressing the 12 selection button, and the menu moves to the next level menu. Alternatively, settings corresponding to the selection are made. The 13 return button is used to return to the next higher level.
[0032]
Menu selection includes the following. First, use modes include new recording, file playback, conventional metronome, that is, fixed tempo, recording with conventional metronome, remote slave mode, file management, and the like. Secondly, the selection of the read file, the lower menu is connected to a recording medium such as a built-in memory or a memory stick, the download via the network, and the lower level is connected to the selection of a folder or individual file. Thirdly, as a selection of a write file, OFF, that is, only read, overwrite, write to a new file, etc. are prepared, which leads to designation of a write destination. Fourthly, as recording selection, time signature setting, number of beats in tact interval, beat division, etc. Fifth playback selection includes start position, stop position, repeated playback on / off, ticking on / off Off, type of sound, volume, number of forward beats (0, 1, 1 measure, 2 measures, etc.), sixth, jump specification in the song, specify whether or not to repeat the whole or individual, specify cut Such. Seventh, various settings include date and time adjustment, language selection, and the like. While it may seem more complex than a traditional metronome, like a video camera, the basic operation is performed with standard settings without going into the details of these options.
[0033]
The new recording operation is performed as follows. First, set the time signature. For example, in the fast 6/8 time, tap only the 1st and 4th beats. In other words, it is two swings in the command, and the tact interval is 3 beats. For example, if one beat is set to 2 taps with a slow 4/4 time signature, the division of the beat is 2. If there is no setting, the time signature is ignored, that is, the time signature is recorded. Then, 15 start buttons are pressed, and the following 16 timing input buttons are tapped to input. If there is a setting change such as time signature in the middle, after inputting tapping at 16 to the beginning, pressing the 15 button will cause a pause state. When the setting is changed and the 15 button is pressed again, this is regarded as the last tapping before the pause, that is, the top timing after the change. Continue tapping with the following 16 buttons. Finally, the process is terminated with 18 stop buttons.
[0034]
Recording with a conventional metronome works as follows. When you complete the recording settings and finish the menu selection, the tempo setting screen appears. Use the 14 rotary switches to align the pointer with the start tempo and select with the 12 selection buttons. The 15 start button starts the fixed tempo metronome. To change the tempo in the middle, use the 15 button to pause and change, and then restart again with the 15 button. There are a method of changing the beat from the beat and a method of continuously changing by turning the 14 rotary switch while holding down the 12 button.
[0035]
In contrast to the above-described new recording, the tapping interval is recorded by reading the value of the internal clock. Write to the set file, but if there is no setting, use the internal memory. The unit of time must be standardized to be compatible, but here it is assumed to be 1 millisecond, that is, 1/1000 of a second. Also record the time from the start to the first tapping. Also, the date and time of the end of recording and the serial number of the file are written for data distinction.
[0036]
The reproduction operation is performed as follows. Select a file to play. When this is not performed, the file reproduced immediately before is used. Further, after the recording is finished, the file can be reproduced. If necessary, make other settings and press the 15 start button to start playback. The time from the recorded start to the first tapping is also reproduced. The 15 buttons can be used to pause in the middle, and the 15 parts can be restarted again with the 15 buttons. The tact movement is displayed on the light emitting element array 4 during reproduction, and there is a sound from the speaker 5 depending on the setting. The pronunciation can be turned on and off at any time with the button 9. The current bar number, tact number, time signature, tempo, file number, and the like are displayed on the screen 6. It stops with the 18 button but the display remains. Press again to return to the start position.
[0037]
When respecting the recorded tempo, the performance is matched and no input is made to the device. However, there is also a means for aligning the deviation with the device. This is because the timing is input with 16 buttons or a foot switch that performs the same function in the first beat of the measure. The device repositions this timing as the first beat and advances at the tempo as recorded.
[0038]
The internal processing of reproduction is performed as follows. If set or not set, the interval data of the file used immediately before is read sequentially, the interval is set in the timer, the time is measured, and the tact is recorded. The light emitting element array 4 reciprocates by sequentially switching elements that emit light during one tact from the lowest point. Details will be described later. The internal beat number and measure number of the display content of 6 are also updated sequentially. To correct the deviation, first, the first beat of the bar closest to the input timing in the recorded data is obtained. The following processing is continued with the input timing as the beat position.
Do not change the recorded data.
[0039]
The operation of correcting the recorded contents is performed as follows. When changing the tempo around this, this is called “macro tempo correction”, and the first beat of a measure is input with 16 buttons or the like for only one beat. The local beat-by-beat tempo correction is called “micro tempo correction”, and the timing of consecutive beats while the 17 button is pressed is input with the 16 buttons. At this time, the first timing is input so as to coincide with the recorded beat, and the subsequent beats are freely input. After the last timing input, the number of beats advances by the same number as the input number of beats, and the tempo returns to the recorded tempo.
[0040]
The internal processing corresponding to the above correction is performed as follows. When 16 buttons are input, if the 17 button is not pressed, the macro tempo is corrected, and if it is pressed, the micro tempo is corrected. To correct the macro tempo, first, the first beat of the measure closest to the input timing in the recorded data is obtained. Find the ratio between the time of the input timing from the beginning of the song or the point where the tempo instruction changed to the point and the recording time, replace the interval data between them, and the part of the song tail or the next tempo instruction The subsequent interval data is also changed at the same ratio. For micro-tempo correction, the beat closest to the first input beat is determined, and the interval data after that beat is replaced with the input beat interval. After the 17 button is released, the beat is returned to the previous beat interval after the last input beat.
[0041]
Here, control of the light emitting element array will be described. First of all, how to move the light emitting point is to be a parabola when graphed with the time axis. That is, throw the ball up and make it come back. At the lowest point, immediately bounce and draw the next feature line. To increase or decrease the beat, the amplitude is changed, but the amplitude before the strong beat is increased and the amplitude before the weak beat is decreased.
[0042]
FIG. 2 shows some examples. Here, the expression “shake” is used to move the light emitting point as in the case of the command. In each graph, the horizontal axis represents time, and the vertical axis represents the position of a light emitting point as a maximum value of 1. In the figure, A is an example of four quarters. The first beat is when the first beat is reached with a large amplitude and the lowest point is reached. For the second, third, and fourth beats, the swing is performed with an eye amplitude as small as 70%, and the second beat is performed with an amplitude of 100%. B in the figure is an example of 6/8 time. Shake at 100% for the first beat, 70% for the fourth beat, and 50% for the other beats. In the figure, C is a three-quarter time signature with a slow tempo, but each beat is waved in two. One swing corresponds to an eighth note. At the division point called the back beat, it does not return to the lowest point, but returns to the point of 30% to distinguish it from the front beat. The highest point of the swing should be the midpoint of the tact time. Therefore, when dividing, the graph is not symmetrical between ascending and descending.
[0043]
Although FIG. 2 shows a continuous function, the device must calculate which light-emitting element is lit. Let the tact interval be T. The unit is milliseconds. Let t be the time variable. For simplicity, the time is assumed to start from 0 at the beginning of the swing. The light emitting elements are numbered one by one with the lowest point as 0. In this embodiment, the number is up to 31. The calculation is performed every 1 millisecond. Repeat until t reaches 0 to T. Let t / T be x. Let A be the highest point number. Then, the formula for calculating the number Y of the light emitting elements at each time is 4Ax (1-x).
[0044]
In terms of circuit, a 32-bit register is provided for controlling the light emitting element, and the value is written from the computer. The current on / off of the corresponding light emitting element is switched by the output of each bit so that the corresponding element of the bit that is 1 emits light. Only the corresponding bit of the number obtained by the above calculation is written as 1 in the light emitting element control register. Since the movement is not smooth when light is emitted one by one, if the fractional part of Y is not divisible, the emission intensity of the two elements sandwiching the value of Y is changed according to the value of the fractional part. Specifically, it is controlled by the length of the light emission time. If 3 bits are taken after the decimal point, the position Y can be obtained with an accuracy of 1/8. For example, when the fractional part has a value of 3/8, it is preferable that the element having the number of the integer part emits light for 5/8 milliseconds, and then the element having the next number is emitted for 3/8 milliseconds. If the decimal part is 0, the integer part element emits light for 1 millisecond. For example, if the metronome notation is 120 tempo, T will be 500, so the calculation is repeated 500 times to control the light emitting element and the light emission time, and it is sufficient to move between 62 elements in a round trip. Smooth and moving.
[0045]
Change the type of the element or set the current value so that the element No. 0 has a light emission intensity about twice that of the other elements. This is because the timing when the lowest point is reached can be clearly understood as the timing of the beat. In order to always see the position of the lowest point, even when the value of Y is not 0, the light emission at a certain low level is continued. This may be a bias current applied only to this element. In another design, another element that always emits light may be arranged at a position next to the 0th element. The emission color may be changed.
[0046]
FIG. 4 is a flowchart showing a portion related to reproduction and correction in the processing described above. In the figure, reference numeral 100 denotes the start point of the periodic timer interruption process every 1 millisecond. In 101, it is determined whether or not there has been a button operation during the immediately preceding cycle. If not, go to N. At 102, the variable t is incremented by 1 and it is determined whether it has reached the beat length T. If not, go to N. In 103, the value of Y is calculated based on t, and the register is written so that the corresponding element emits light. When T is reached at 102, the routine proceeds to 104. Here, the real time at that time is recorded in association with the bars and beats. When the beat has advanced a predetermined number of beats, the measure is advanced to the next. Read the new beat length T from the file. In the next 105, t is set to 0 and writing to the register is performed so as to drive the first light emitting element.
[0047]
When a button operation is performed in 101, it is determined in 106 whether or not the button is pressed. If not, processing corresponding to each button is performed at 107. If the button 16 is pressed, it is further determined whether the button 17 is pressed at 108. Otherwise, it is a macro correction, and in 109, the head of the nearest measure is obtained first. Then rewrite it with the bar and beat values. Next, at 110, the actual time of the beginning of the tune or the last tempo change up to that time is read out, the difference to the current time is determined as L2, and the difference to the time before correction at the beginning of the calculated measure is set as L1. If it has not reached yet, it is obtained by adding beat interval data. A value obtained by dividing L2 by L1 is a correction ratio. The corrected beat interval is determined by multiplying the length of the first beat of the bar before correction by the correction ratio. Here, the processing 111 having a low processing priority is activated, and the processing jumps to 105. In 111, the beat interval data from the beginning of the song or the last tempo change point until the next tempo change point or the end of the song to the next tempo change point is rewritten by the product of the correction ratio.
[0048]
When the button 17 is pressed at 108, the micro correction is performed and the routine proceeds to 112. At 112, it is determined whether it is the first one when button 17 is pressed. If yes, go to 114. At 114, the nearest close beats before and after are determined and the actual time t1 is recorded. If not the first, proceed to 113. In step 113, t1 is subtracted from the actual time t2, a corrected beat interval is obtained, and the data is rewritten. The value of t2 is substituted for t1. The beat is advanced and the beat interval T is read from the file and the process proceeds to 105.
[0049]
As the current time in the description of FIG. 4 above, it is convenient to use a count in which the beginning of the song is 0 and the unit is milliseconds.
[0050]
(Example 2)
In this embodiment, the present invention is realized by running application software on a personal computer. Compared with the dedicated apparatus of the first embodiment, various settings can be easily performed by using a dialog means using graphics. The biggest difference is that the tact can be displayed in two dimensions, so that the movement of the baton can be displayed almost exactly.
[0051]
It is also possible to specify a tempo by collecting many measures, and create smoothly changing data at once by specifying the tempo at the beginning and end of the accelerando, stringend, ritardando, etc., and the change curve. Is possible. Thus, tempo data for one song can be quickly created, so that it can be used as a workstation for creating initial data. A name can be assigned to each data. The result can be written in a storage medium and brought into the dedicated apparatus of the first embodiment.
[0052]
The one-dimensional display according to the first embodiment can accurately predict the beat timing. In the two-dimensional display of Example 2, it is an advantage that the number of beats can be clearly understood. From the non-patent document 1, the three beats are cited as shown in FIG. 31 in FIG. 3 is the timing point of the first beat, decelerating from there to reach the point 32, and accelerating from there to the timing point of the second beat of 33. Further decelerate 34, accelerate 35, decelerate but move greatly 36, accelerate and return to 31. Here, the movement distance along each straight line can be obtained by using the distance between both ends instead of A in the above-described equation of Y. However, x is from 0 to 0.5 during deceleration and from 0.5 to 1 during acceleration.
[0053]
The display device may be an integrated type of a tablet PC or a display different from the main body. Depending on the number of people, a large TV display, or a projection display can be used in orchestra and choral music. Alternatively, the same video signal can be displayed on a plurality of displays, and can be synchronized with performance in a separate room. Conversely, a small display of 3 inches or less can be placed in the corner of the music stand.
[Industrial applicability]
[0054]
The present invention is used as a replacement for a conventional metronome, including an electronic version. In other words, it is used as a performance practice tool by performers, orchestras, music educational institutions, and homes. It becomes possible to use music with tempo changes that could not be handled by conventional ones, and the user spreads not only for beginners but also for advanced users. It is also useful when recording music for movies, such as when the performance is set in accordance with the video. Also, it can be used for training of predetermined operations such as volleyball, physical education, language, fire fighting, and military.
The medium for the apparatus of the present invention that records the tempo of the music is valuable as a product, and its production and sales business is created. A conventional product called “music minus one” is also possible which is a product of a CD and a storage medium on which a tempo is recorded.
[Explanation of symbols]
[0055]
2 Tempo data storage media
4 Light emitting element array
6 Display
15-18 Operation buttons

Claims (5)

In a metronome that records data related to beat intervals, reads the recorded data, and plays back the beat timing so that it can be viewed.
A recording medium for recording the data;
An input unit for tapping and inputting signals that should correspond to the timing of each beat,
Means for recording data on the interval of the input signal on the recording medium ,
The recording medium records the timing of the first beat of each measure of the song,
Furthermore,
A means for inputting a predetermined correction signal during reproduction of beat timing;
Means for obtaining from the recording medium the timing of the first beat closest to the timing when the correction signal is input by the input means;
Means for replacing the obtained timing of the first beat with the timing at which the correction signal is input;
With
A metronome wherein the beat timing is reproduced so as to be viewable at intervals recorded on the recording medium after the replacement timing . In a metronome that records data related to beat intervals, reads the recorded data, and plays back the beat timing so that it can be viewed.
A recording medium for recording the data;
An input unit for tapping and inputting signals that should correspond to the timing of each beat,
Means for recording data relating to intervals of inputted signals on the recording medium;
With
The recording medium records the timing of the first beat of each measure of the song,
Furthermore,
A means for inputting a predetermined correction signal during reproduction of beat timing;
Means for obtaining from the recording medium the timing of the first beat closest to the timing when the correction signal is input by the input means;
Means for replacing the recorded timing of the first beat with the timing at which the correction signal is input;
Means for proportionally and proportionally recording the data of the interval between beats between the song song head and the music song tail based on the intervals between the song song head and the obtained first beat and the input timing of the correction signal, respectively. features and to Rume metronome that with a. In a metronome that records data related to beat intervals, reads the recorded data, and plays back the beat timing so that it can be viewed.
A recording medium for recording the data;
An input unit for tapping and inputting signals that should correspond to the timing of each beat,
Means for recording data relating to intervals of inputted signals on the recording medium;
With
The recording medium records the timing of the first beat of each measure of the song,
Furthermore,
A means for setting the tempo at the beginning of the music piece and in the middle,
A means for inputting a predetermined correction signal during reproduction of beat timing;
Means for obtaining from the recording medium the timing of the first beat closest to the timing when the correction signal is input by the input means;
Means for replacing the recorded timing of the first beat with the timing at which the correction signal is input;
Based on the interval between the beginning of the tempo interval including the obtained first beat and the obtained first beat and the input timing of the correction signal, the interval between the beats between the beginning and end of the tempo interval is determined. characterized in that it comprises means for pro-rata substituted recorded data and to Rume metronome. In a metronome that records data related to beat intervals, reads the recorded data, and plays back the beat timing so that it can be viewed.
A recording medium for recording the data;
An input unit for tapping and inputting signals that should correspond to the timing of each beat,
Means for recording data relating to intervals of inputted signals on the recording medium;
With
Input means for a plurality of consecutive correction signals during playback of beat timing;
Means for obtaining from the recording medium a beat having a timing closest to the timing at which the correction signal is first input by the input means;
Features and to Rume metronome that and means for replacing recorded corresponding to the input interval of the data interval beats later obtained beat subsequent correction signal. In a recording method of beat intervals in a metronome that records data related to beat intervals on a recording medium, reads out the recorded data, and reproduces the beat timings so as to be viewable.
Generate a signal that should correspond to the timing of each beat by tapping,
As the data, data on the generated signal interval is recorded on a recording medium ,
While playing back the beat timing with the data recorded on the recording medium so as to be viewable, the beat timing closest to the timing at which the first signal was input among the plurality of signals generated by tapping is selected. Obtained from the recording medium,
Record the calculated beat timing with the timing when the first signal was input,
A beat interval recording method, wherein the beat interval data after the obtained beat is replaced and recorded in correspondence with an input interval of a subsequent signal .

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